KR20210070643A - self-developed wearable bridge - Google Patents

Abstract

The present invention relates to a self-powered wearable leg. The self-powered wearable leg of the present invention comprises: a foot rest; a calf frame; a thigh frame; a thigh frame; a saddle means; an electric wire; a power storage battery; and a power unit. According to the present invention, it is possible to solve a conventional problem in which a wearable auxiliary device needs to be frequently charged using power.

Description

Self-developed wearable bridge

The present invention relates to a self-powered wearable leg,

More specifically, in a wearable assistive device,

A fiber battery composed of a thin rectangular fiber battery mixed with carbon nanotubes mixed with iron oxide in a boat to play the role of a convenient and high-efficiency battery in daily life, and self-generating to reduce the inconvenience of charging Microbial fuel cell using electrical energy obtained by the growth of bacteria that consume organic waste, an oval-shaped rubber tube with good elasticity that can supply organic waste to the fuel cell and allow the liquid to rise with the pressure generated when walking without bursting under pressure A urine storage tube configured to hold urine in the body, a small rectangular shape to give the pressure that the urine in the storage tube rises up to the fuel cell, and a foot pressure unit made of a material that is easy to transmit pressure, and urine is up to the fuel cell It consists of a urine pipe tube composed of a long round tube that is movable and does not cause inconvenience to movement, and is highly flexible.

The urine in the urine tube is self-generated through the growth energy of microorganisms that consume organic waste, and the energy is stored through a light and high-efficiency electric storage system through a fiber battery to reduce the inconvenience of charging the existing wearable products. it was intended to

In general, wearable assistive devices use electric power to assist in walking instead of insufficient muscle strength.

As described above, the wearable auxiliary device is composed of a foot support, a calf frame, a thigh frame, a thigh frame, a saddle means, an electric wire, a power storage battery, and a power unit.

The wearable assistive device as described above uses electric power to recognize the power of minute muscle strength to help with walking.

However, the conventional wearable assistive device as described above has a problem in that it needs to be frequently charged using electric power.

Republic of Korea Utility Model No. 1020160175893

Accordingly, the present invention is to solve the problem that the conventional wearable auxiliary device needs to be frequently charged using electric power.

That is, the present invention provides a fiber battery configured to put a thin rectangular fiber battery mixed with carbon nanotubes and iron oxide on a ship so that it can serve as a convenient and high-efficiency battery in daily life, and to reduce the inconvenience of charging. Microbial fuel cell that utilizes electric energy obtained from the growth of bacteria that consume organic waste to generate self-generation, organic waste can be supplied to the fuel cell, and the elasticity is strong so that the liquid can rise with the pressure generated when walking without bursting under pressure. A urine storage tube configured to hold urine in a good oval rubber tube, a small rectangular shape to give the pressure that the urine in the storage tube rises to the fuel cell, and the sole acupressure part is made of a material that is easy to transmit pressure. It is composed of a urine pipe tube composed of a long round tube with high flexibility so that urine can move to the fuel cell and does not cause inconvenience to movement.

Therefore, the present invention provides a fiber battery configured to put a thin rectangular fiber cell in which carbon nanotubes are mixed with iron oxide in a vessel to serve as a convenient and high-efficiency battery in daily life, and to reduce the inconvenience of charging itself. Microbial fuel cell that utilizes electric energy obtained by the growth of bacteria that consume organic waste for power generation, organic waste can be supplied to the fuel cell, and has good elasticity so that the liquid can rise with the pressure generated when walking without bursting under pressure Urine storage tube configured to hold urine in an oval rubber tube, a small rectangle with a small area to give the pressure that the urine in the storage tube rises to the fuel cell, and a foot pressure part made of a material that is easy to transmit pressure, urine By configuring the urine pipe tube with a long round tube that can move up to this fuel cell and does not cause inconvenience in movement, the urine in the urine tube generates its own power through the growth energy of microorganisms that consume organic waste. By storing energy through a light and high-efficiency electric storage system through a fiber battery, it has the effect of reducing the inconvenience of charging the existing wearable products.

Figure 1: A view of the present invention worn from the side

That is, the present invention solves the inconvenience of charging (1) a fiber battery configured to put a thin rectangular fiber battery mixed with carbon nanotubes and iron oxide on a ship so that it can serve as a convenient and high-efficiency battery in daily life. (2) Microorganism fuel cell, which utilizes electric energy obtained by the growth of bacteria that consume organic waste to generate self-generation to reduce the pressure, and can supply organic waste to the fuel cell, and the pressure generated when walking without bursting under pressure (3) Urine storage tube configured to contain urine in an oval-shaped rubber tube with good elasticity so that it can ascend, and it is easy to transmit pressure in a narrow rectangular shape to give the pressure that the urine in the storage tube rises to the fuel cell It is composed of (4) acupressure part on the sole of the foot, which is selected as a material, and (5) urine pipe tube, which is a long round tube with high flexibility so that urine can move to the fuel cell and does not cause inconvenience to movement.

Here, (1) the fiber battery is constructed so that a thin rectangular fiber battery in which carbon nanotubes are mixed with iron oxide can be placed on a ship to serve as a convenient and high-efficiency battery in daily life.

Here, (2) the microbial fuel cell utilizes the electric energy obtained from the growth of bacteria consuming organic waste so that it can self-generate to reduce the inconvenience of charging.

Here, (3) the urine storage tube is configured so that it can supply organic waste to the fuel cell and contain urine in an oval-shaped rubber tube with good elasticity so that the liquid can rise with the pressure generated when walking without bursting under pressure.

Hereinafter, the process of using the present invention will be described as follows.

As described above, the present invention is a (1) fiber constructed so that a thin rectangular fiber battery in which carbon nanotubes are mixed with iron oxide can be placed on a ship so that it can serve as a convenient and high-efficiency battery in everyday life in a wearable auxiliary device. (2) Microorganism fuel cell, which utilizes the electric energy obtained by the growth of bacteria consuming organic waste to generate self-generation to reduce the inconvenience of charging (2) microbial fuel cell, organic waste can be supplied to the fuel cell and does not burst under pressure (3) Urine storage tube, which is configured to contain urine in an oval-shaped rubber tube with good elasticity so that the liquid can rise with the pressure generated by walking, and a narrow area to give the pressure that the urine in the storage tube rises to the fuel cell (4) The acupressure part of the sole of the foot, which is made of a material that is easy to transmit pressure in a rectangular shape, and (5) consists of a long round tube with high flexibility so that urine can move to the fuel cell and does not cause inconvenience to movement When the present invention is applied and implemented, it is intended to solve the problem of having to frequently charge using electric power.

In addition, in the practice of the present invention, by applying the present invention consisting of (1) a fiber battery configured so that a thin rectangular fiber battery in which carbon nanotubes are mixed with iron oxide can be placed on a ship, it is convenient and highly efficient for daily life. It will be able to act as a battery for

In addition, in the practice of the present invention, if the present invention consisting of (2) a microbial fuel cell is applied and implemented by using the electric energy obtained by the growth of bacteria consuming organic waste, self-generation to reduce the inconvenience of charging will be able to

In addition, in the practice of the present invention, if the present invention consisting of (3) a urine storage tube configured to contain urine in an oval rubber tube having good elasticity is applied and implemented, organic waste can be supplied to the fuel cell and the pressure The pressure created by walking without bursting will allow the liquid to rise.

1: Fiber cell, 2: Microbial fuel cell, 3: Urine storage tube, 4: Foot acupressure part, 5: Urine pipe tube

Claims (4)

A wearable assistive device comprising:
(1) Fiber battery, which is a thin rectangular fiber battery mixed with carbon nanotubes mixed with iron oxide, can be placed on the boat to serve as a convenient and high-efficiency battery for daily life, self-generation to reduce the inconvenience of charging (2) Microbial fuel cell, which utilizes the electrical energy obtained by the growth of bacteria that consume organic waste to make it possible to supply organic waste to the fuel cell and elastic force so that the liquid can rise due to the pressure generated when walking without bursting under pressure (3) Urine storage tube, which is configured to hold urine in this nice oval rubber tube, and a small rectangle with a small area to give the pressure that the urine in the storage tube rises to the fuel cell is selected and composed of a material that is easy to transmit pressure. (4) Acupressure part on the sole of the foot, urine can move to the fuel cell, and it is composed of a long round tube with high flexibility so that it does not cause inconvenience to movement (5) A self-powered wearable leg characterized by being composed of a urine pipe tube. The method of claim 1,
(1) A self-powered wearable bridge characterized in that a thin rectangular fiber cell in which carbon nanotubes are mixed with iron oxide can be placed on a ship so that it can serve as a convenient and high-efficiency battery in daily life through a fiber battery . The method of claim 1,
(2) A self-powered wearable leg characterized by utilizing the electric energy obtained from the growth of bacteria consuming organic waste so that it can self-generate so as to reduce the inconvenience of charging through a microbial fuel cell. The method of claim 1,
(3) Through the urine storage tube, organic waste can be supplied to the fuel cell and the liquid can rise with the pressure generated when walking without bursting under pressure so that urine can be stored in an oval-shaped rubber tube with good elasticity. A self-powered wearable leg.

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